Divergence in Heliconius flight behaviour is associated with local adaptation to different forest structures

Denise Dalbosco Dell'Aglio*, Sebastián Mena, Rémi Mauxion, W. Owen McMillan, Stephen H Montgomery

*Corresponding author for this work

Research output: Contribution to journalArticle (Academic Journal)peer-review

9 Citations (Scopus)

Abstract

Microhabitat choice plays a major role in shaping local patterns of biodiversity. In butterflies, stratification in flight height has an important role in maintaining community diversity. Despite its presumed importance, the role of behavioural shifts in early stages of speciation in response to differences in habitat structure is yet to be established.
Here, we investigated variation in flight height behaviour in two closely related Heliconius species, H. erato cyrbia and H. himera, which produce viable hybrids but are isolated across an environmental gradient, spanning lowland wet forest to high-altitude scrub forest. Speciation in this pair is associated with strong assortative mating, but ecological isolation and local adaptation are also considered essential for complete reproductive isolation.
We quantified differences in flight height and forest structure across the environmental gradient and tested the importance of resource distribution in explaining flight behaviour. We then used common garden experiments to test whether differences in flight height reflect individual responses to resource distribution or genetically determined shifts in foraging behaviour.
We found that the two species fly at different heights in the wild, and demonstrated that this can be explained by differences in the vertical distribution of plant resources. In both the wild and captivity, H. himera choose to fly lower and feed at lower positions, closely mirroring differences in resource availability in the wild.
Given expectations that foraging efficiency contributes to survival and reproductive success, we suggest that foraging behaviour may reflect local adaptation to divergent forest structures. Our results highlight the potential role of habitat-dependent divergence in behaviour during the early stages of speciation.
Original languageEnglish
Pages (from-to)727-737
Number of pages11
JournalJournal of Animal Ecology
Volume91
Issue number4
Early online date14 Feb 2022
DOIs
Publication statusPublished - 1 Apr 2022

Bibliographical note

Funding Information:
The authors thank anonymous reviewers for manuscript feedback, Richard Merrill for helpful insights and Oscar Paneso for assistance in the insectaries. They thank all those in Ecuador, in particular Jocotoco Fundation for support while doing fieldwork in the Buenaventura Reserve, and Joy and Curtis Hofmann from Cervecería Artesanal Sol del Venado in Vilcabamba. They thank the Smithsonian Tropical Research Institute for all support in Panama. This work was carried out under permission from Ministerio del Ambiente, Panama (permit SE/A-82-19) and Instituto Nacional de Biodiversidad, Ecuador (permit MAE-DNB-CM-2016-0045). This research was supported by a Smithsonian Institution Postdoctoral Fellowship to D.D.D. and a NERC IRF (NE/N014936/1) and ERC Starter Grant (758508) to S.H.M.

Funding Information:
The authors thank anonymous reviewers for manuscript feedback, Richard Merrill for helpful insights and Oscar Paneso for assistance in the insectaries. They thank all those in Ecuador, in particular Jocotoco Fundation for support while doing fieldwork in the Buenaventura Reserve, and Joy and Curtis Hofmann from Cervecería Artesanal Sol del Venado in Vilcabamba. They thank the Smithsonian Tropical Research Institute for all support in Panama. This work was carried out under permission from Ministerio del Ambiente, Panama (permit SE/A‐82‐19) and Instituto Nacional de Biodiversidad, Ecuador (permit MAE‐DNB‐CM‐2016‐0045). This research was supported by a Smithsonian Institution Postdoctoral Fellowship to D.D.D. and a NERC IRF (NE/N014936/1) and ERC Starter Grant (758508) to S.H.M.

Publisher Copyright:
© 2022 British Ecological Society.

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